Dispenser for a coffee brewing apparatus



July 31, 1962 D. s. REYNOLDS ETAL 3,047,194

DISPENSER FOR A COFFEE BREWING APPARATUS Original Filed April 5, 1958 5 Sheets-Sheet 1 I INVENTORS 2 DONALD S. REYNOLDS 8 OTTO E. WERNER, JR.

ATTORNEYS July 31, 1962 D. s. REYNOLDS ETAL 3,047,194

DISPENSER FOR A COFFEE BREWING APPARATUS Original Filed April 3, 1958 5 Sheets-Sheet 2 DONALD S. REYNOLDS 8 amus 935w g lim INVENTORS BY orro E. WERNER, JR.

o nus/1 1% I 5 A TTDRIVE'YS July 31, 1962 D. s. REYNOLDS ETAL 3,047,194

DISPENSER FOR A COFFEE BREWING APPARATUS Original Filed April 3, 1958 5 Sheets-Sheet a 10 INVENTORS 00mm 3. REYNOL 0s a BY orro E WERE, JR.

A TTORNEYS July 31, 1962 D. s. REYNOLDS ETAL 3,047,194

DISPENSER FOR A COFFEE BREWING APPARATUS Original Filed April 3, 1958 5 Sheets-Sheet 4 INVENTORS DONALD 5. REY/701.055 OTTOE. WERNER,JR.

ATTORNEYS July 31, 1962 D. s. REYNOLDS ETAL 3,047,194

DISPENSER FOR A COFFEE BREWING APPARATUS Original Filed April 3, 1958 5 Sheets-Sheet 5 INVENTORS DONALD 5. RE Y/VOLDS 8 OTTO E. WERNER, JR.

A TTOR/VEYS 4 Claims. (Cl. 222-442) This invention relates to a brewing apparatus, and more particularly to a brewing apparatus which is automatic in operation and especially useful in brewing coffee, although other uses and purposes will be apparent to one skilled in the art.

The present application is a division of our application, Serial No. 726,149, filed April 3, 1958, now Patent No. 3,007,391 issued November 7, 1961.

The brewing apparatus in general includes a device for dispensing a measured amount of brewing material into a brewing container or vessel Within which a liquid is brewed from a brewing liquid and the brewing material. The brewed liquid is transferred from the brewing container to a storage or holding tank from which it may be subsequently dispensed.

The brewing apparatus of the present invention will be described herein in connection with the brewing of coffee,

although it may be appreciated that other liquids may be brewed from this apparatus. Similarly, the dispenser of the brewing apparatus may be used to dispense measured amounts of any type of dry granular material, but will be designated for purposes herein as a coffee dispenser.

The coffee dispenser which supplies measured amounts of coffee to the brewing container at a predetermined time includes a reseiyoir which is supplied with coffee from a hopper arranged thereabove. A measuring chamber defined by a container extending downwardly from the reservoir is filled by a disc shaped member rotatably mounted in the reservoir. The disc shaped member is provided with a plurality of openings or holes and a raised portion blank in form, wherein the portion having the openings effectively conveys the coffee around the reservoir to the measuring container which is offset from the center of the reservoir. A gate is opened at the bottom of the measuring container to dispense a charge of coflee during the time that the raised blank portion of the disc shaped member passes over the upper open end of the measuring chamber. This arrangement eliminates packing of coffee in the reservoir and the measuring chamber thereby preventing malfunctioning of the dispenser.

ttes atent The brewing container and operating components are simply constructed and arranged and include a brewing container rotatably mounted on a trunnion and driven by a motor. The brewing container is open at one end and provided with a cover which is automatically closed or opened depending upon the rotational position of the container. A cam shaft driven from the shaft of the motor, and therefore in timed relation with the driving of the container, is arranged to operate a predetermined number of switches as the brewing apparatus goes through a cycle of operation. The cycle of operation includes rotation of the container, with the cover removed, through an area where coffee grounds or brewing material may be dispensed into the container. Subsequent to closing of the container by causing the cover to be tightly sealed on the open end of the container, a switch is operated by a cam to deenergize the motor and initiate the brewing cycle. The container is again rotated when the brewing cycle has been completed. Another switch is operated by the cam during this continued rotation which initiates "ice the flushing cycle. The cover is removed from the open end of the container substantially simultaneously with the initiation of the flushing cycle. flushing cycle, another switch is operated by the cam which stops or terminates the cycle of operation.

It. is therefore an object of this invention to provide an improved brewing apparatus for automatically brewing coffee and the like, wherein the construction is eco nomical and simple and easily maintained.

Another object of the present invention is in the provision of a brewing apparatus having a dispenser for dispensing brewing material, such as coffee grounds, wherein the construction is such as to eliminate any possibility of packing the material in the dispenser which would cause malfunction thereof.

Still another object of this invention resides in the provision of a dispenser for dispensing granulated material including a reservoir having a rotatable disc therein and a measuring container extending downwardly therefrom, wherein a rotating disc is so formed as to e1im-' inate packing of the granulated material in the reservoir and the measuring container, thereby giving greater overall efliciency and foolproof operation of the dispenser.

Another object of this invention is to provide a dispenser for dispensing granulated material, such as coffee or the like, in measured amounts, wherein the dispenser may be adjusted so that it dispenses a predetermined amount of material.

Other objects, features, and advantages of the invention will be apparent from the following detailed disclosure, taken in conjunction with the accompanying sheets of drawings, wherein like reference numerals refer to like parts, in which:

FIG. 1 is a front elevat-ional view, with some parts broken away, of the complete brewing apparatus according to the invention;

FIG. 2 is a vertical sectional view, taken substantially along line 2, 2 of FIG. 1;

FIG. 3 is a top plan view of the brewing assembly taken substantially along line 3, 3 of FIG. 2;

FIG. 4 is a horizontal sectional view of the dispenser reservoir, showing the rotating disc in top plan view, taken substantially along line 4, 4 of FIG. '1;

FIG. 5 is a bottom plan view of the dispenser, with some parts broken away and others fragmentary, taken substantially along line 5, 5 of FIG. 1;

FIG. 6 is an enlarged fragmentary view of a detailof the dispenser with parts broken away to show how the blank portion of the rotating disc is arranged relative to the bottom of the reservoir;

FIG. 7 is a View of the brewing container, taken substantially along line 7, 7 of FIG. 2;

7 FIG. 8 is an exploded view of the driving connection between the dispenser and the cam shaft of the brewing apparatus and illustrating the positions of the switches operated by the cams as Well as the driving gear arrangement from the motor;

FIG. 9 is a front elevational view of the brewing container illustrating the container in the brewing position;

FIG. 10 is an enlarged longitudinal sectional view of the brewing container, taken substantially along line 10, 10 of FIG. 9;

FIG. 11 is an enlarged transverse sectional view taken substantially along line 11, 11 of FIG. 10;

FIG. 12 is a greatly enlarged transverse sectional view taken substantially along line 12, 12 of FIG. 10;

FIG. 13 is a perspective view of the brew stem accord-. ing to the invention;

FIG. 14 is a somewhat diagrammatic view of the entire system in which the brewing apparatus of the present invention is utilized; and

Subsequent to the FIG. 15 is a diagrammatic view, on a very small scale, of the cycle of operation of the brewing container according to the invention.

The brewing apparatus of the prevent invention includes generally a dispenser 20 for dispensing measured amounts of granulated material such as coffee, and a brewing assembly 21 for effecting the brewing to produce a brewed liquid such as coffee, arranged together as a unitary apparatus as seen in FIGS. 1, 2, and 14. The dispenser and brewing assembly are supported on a common channel-shaped frame member 22 (FIGS. 1, 2, 3, and 14). This frame member includes a vertical rear wall 23, and forwardly projecting side walls 24 and 25. The manner in which the dispenser and the brewing assembly are mounted on this frame member will be specifically set forth hereinafter in connection with the description of the devices.

Referring now particularly to FIGS. 1, 2, and 4, the dispenser includes generally a measuring container 26 which measures a charge of coffee and dispenses the measured amount into the brewing assembly for a brewing cycle, a coffee reservoir 27 which holds a supply of coffee for filling the measuring device, and a rotating disc 28 within the reservoir serving to convey the coffee through the reservoir to the measuring device 26 and assuring a proper flow of coffee grounds between the reservoir and the measuring device.

The reservoir 27 is cylindrically shaped and includes a bottom wall 29 and an upstanding wall 30. A removable cover 31 having a peripheral downwardly extending flange 32 is received over the open upper end of the reservoir in telescoping fashion, and may be temporarily secured thereto by a screw 33, FIG. 2. Preferably, this cover 31 fits rather tightly on the reservoir in order to maintain the freshness of the coffee and, if desired, a sealing gasket may be employed between the cover and the upper peripheral end of the side wall 30.

An opening 34, FIG. 1, is provided in the cover 31, and in this instance, substantially square in shape for freely receiving the discharge end of a hopper 35 that may supply coffee to the reservoir. In order to give a substantially airtight connection between the hopper and the reservoir, a flexible gasket 36 of rubber or the like is secured to the cover having portions extending inwardly of the opening for each of the side walls of the hopper 35 as seen in FIG. 1. A retaining member 37 may be riveted or otherwise secured to the cover to secure the gasket 36 thereto, as seen in FIG. 1. This connection between the hopper and the reservoir permits easy removal of the dispensing device for maintenance purposes should such be required.

The dispenser 20 is removably mounted to the frame member 22 by a U-shaped bracket 38 secured to the un derside of the reservoir bottom wall 29 in any desirable manner. This bracket includes a bottom wall 39 extending horizontally and upstanding side walls 40 and 41, FIG. 1, which are bent over at their upper ends and secured to the reservoir. At the rear ends of the side walls 40 and 41, a pair of vertically spaced, parallel rods 42 and 43, FIG. 2, are arranged and secured to the side walls by any suitable manner. These rods are arranged to be received in arcuate seats 44 and 45 formed in the side walls 24 and 25 of the frame member 22, FIG. 2. The side walls 40 and 41 of the U-shaped bracket 38 are spaced to be received just inside the side walls 24 and 25 of the frame member 22, and thereby prevent any lateral motion of the rods with respect to the side wall and provide a stable and rigid supporting framework for the dispenser. By merely lifting up the dispenser 20 and pulling it out away from the frame member 22, while also tipping it in order for the hopper 35 to clear the opening in the reservoir, the dispenser may be removed from the machine for servicing.

The bottom wall 29 of the reservoir is provided with an opening for receiving the upper end of the measuring device 26. The measuring device 26 includes an upper section 46 and a lower section 47 telescopically related thereto for providing an adjustable measuring chamber and increasing the flexibility of the dispenser. tions are cylindrical in shape, although they may be polygonal if desired. The upper end of the upper section 46 may be secured to portions around the opening in the bottom wall 29 and this section extends through an-opening provided in the bottom wall 39 of the U- shaped bracket 38. The lower section 47 is secured on the bottom wall 48 of a U-shaped bracket 49, FIG. 1. This U-shaped bracket includes upstanding side walls 50 and 51 slidably received on the outer surfaces of the upstanding side walls 40 and 41 of the U-shaped bracket 38 as seen in FIG. 1. These side walls 50 and 51 are provided with vertical slots 52 (only one shown in FIG. 1) wherein shouldered nut and bolt assemblies 53 and 54 provide a guided sliding relationship between the U-shaped bracket 49 and the U-shaped bracket 38. Lower nut and bolt assemblies 55 and 56 are arranged to be tightened or loosened for adjusting the lower U- shaped bracket 49 with the upper U-shaped bracket 38 and consequently providing a displacement of the lower section 47 relative to the upper section 46 of the measuring device. Thus, the volume of the measuring chamber may be changed when desired.

A shaft 57 extends vertically and is freely received through aligned openings provided in the U-shaped bracket 38 and 49 and is journalled at its upper end in a bearing 58 mounted in the bottom wall 29 of the reservoir 27 as seen in FIG. 2. The shaft is polygonally shaped in cross section, preferably square, and provided with a reduced cylindrical section 59 at its upper end which is received in the bearing 58 and protrudes into the reservoir. Spacers are provided above and below the bearing 58 and encircling the reduced portion 59 of the shaft, and the upper spacer serves to slightly raise the bottom surface of the rotary disc 28 above the bearing 58. The rotary disc 28 is provided with a center aperture which is received over the reduced end portion 59 of the shaft, and a substantially U-shaped member 60 has one of its legs secured to the upper side of the rotary disc 28, with both of the legs having aligned apertures in alignment with the opening in the rotary disc for receiving the cylindrical end portion 59 of the shaft as seen in FIG. 2. The bight portion of the U-shaped member 60 is provided with an aperture for receiving a pin 61 which also extends through a transverse bore in the reduced cylindrical portion 59 and is locked in place at opposite ends by locking rings in order to secure the rotary disc to the shaft 57 so that it will corotate therewith. Thus, driving of the shaft 57 effects rotation of the rotary disc 28 within the reservoir.

The rotary disc 28 includes a first section 62 spaced upwardly from the bottom wall 29 of the reservoir a certain distance, and a second section 63 spaced a greater distance upwardly from the bottom wall of the container to define a relatively raised portion from the section 62. The second section 63 defines an arcuate portion extending through approximately a arc, while the first portion 62 comprises the remaining portion of the disc. The first section 62 is provided with a plurality of openings 64, FIG. 4, while the second section 63 is blank or impervious.

It may be noted in FIG. 4 that the inlet to the reservoir from the hopper 35 is arranged off-center from the reservoir and adjacent the rear thereof, while the opening in thebottom of the reservoir leading to the measuring device 26 is arranged ofi-center of the reservoir and to the front thtereof. The disc 28 rotates counterclockwise as viewed in FIG. 4 and indicated by the arrow 65. The first section 62 with the openings 64 therein serves to convey the coffee or granular material within the reservoir and to the opening in the measuring device 26, while the second blank section 63 serves to cover the upper open end of the measuring device 26 when a charge of colfee The secis dispensed therefrom in order to prevent more coffee than a measured amount from being dispensed at any one time. Packing of coffee in the reservoir and the measuring device 26 may effect bridging and prevent the discharge of a proper measured amount of coffee from the measuring device. However, the rotary disc 28 with its first section 62 having a plurality of openings therein and a second section 63 being spaced a greater distance above the bottom wall 29 of the reservoir serve to prevent packing of coffee in the reservoir and the measuring device thereby permitting proper functioning of the dispenser at all times.

The discharge end of the measuring device 26 is selectively opened and closed by means of a gate 66, FIGS. 2, 4, and 5. This gate is flat in shape and pivoted at one end on a pin 67 and held in close contact with the underside of the lower wall 48 of the lower U-shaped bracket 49 by means of a guide plate 68, FIG. 5. The guide plate is secured at one side to the underside of the lower wall 48 by screw members 69, FIG. 5, thereby leaving unobstructed the other space between the guide plate and the lower wall 48. As noted in FIG. 5 the gate 66 is shown in solid lines when it is in closed position and in dotted lines when it is in open position. A lug 70 is struck from the gate 66 downwardly and has one end of a spring 71 attached thereto. The spring 71 coils about the pivot pin 67 and has its other end hooked over a remote edge of the guide plate 68 as seen in FIG. 5, whereby the gate 66 is normally biased to closed position. A rubber bumper '72 is carried on the lug 70 and normally abuts against a stop 73- which prevents the spring from forcing the gate beyond the lower open end of the measuring device 26 as seen in FIG. 5. This bumper further serves to absorb the shock imparted to the dispenser when the gate 66 is released after having been open to discharge the coffee from the measuring device.

The gate 66 is opened during each revolution of the rotary disc 28 in the reservoir by means of a camming finger 74, FIG. 5, which is mounted on the shaft 57 to rotate therewith and arranged between the bottom wall 48 of the lower bracket 49 and the guide plate 68. This camming finger 74 engages a cam lobe 7S integral with the gate 66, FIGS. 4 and 5, and thereby forces the gate 66 gradually to the open position illustrated by the dotted lines in FIG. 5. When the camming finger 74 has moved out of the path of the cam lobe 75, the spring '71 will snap the gate back to closed position. The camming finger 74 is arranged to open the gate 66 during the time which the imperforate second section 63 on the rotary disc 28 passes over the upper open end of the measuring device 26. Thus, as the camming finger 74 initially starts to open the gate 66, the upper end of the measuring device will be covered by the leading portion of the imperforate section 63 on the rotary disc and the gate 66 will be permitted to close prior to the time the trailing edge of the blank section 63 leaves the open upper end of the measuring device 26. Accordingly, an accurately measured charge of coffee will be dispensed at a predetermined time.

A retaining member 76 is mounted on the very lower end of the shaft 57 against which abuts a bar-shaped driven member 77, FIGS. 1, 2 and 8, having a slot 78 of one width at one end and a slot 79 of a greater width arranged diametrically opposite at the other end, FIG. 8. These slots engage driving pins which will be more clearly described hereinafter. A coil spring 80, FIGS. 1 and 2, encircles the shaft 57 and is arranged between the underside ofthe guide plate 68 on the upper side of the driven member 77 to maintain it at the lower end of the shaft.

It may be appreciated that the entire gate assembly is mounted on the lower U-shaped bracket 49 along with the lower section of the measuring device and moves together along the shaft 57 during adjustment of the capacity of the measuring device 26.

Referring now to the brewing assembly 21, this assembly includes generally a brewing container 81 havinga brewing basket 82 arranged therein and held in place by a brew stem 83. The brewing container 81 is generally cylindrically shaped having a bottom wall 84 and a side wall 85, wherein the end opposite the bottom wall is open as seen in FIG. 10.

The brewing container is mounted to rotate about a horizontal axis and therefore is mounted on a trunnion at its inner side. The trunnion includes a member 86 secured at one end to the side wall of the brewing container 81 and journalled in the bearing assembly 87 rigidly mounted in a vertical frame member 88, FIG. 10. Thus, the brewing container 81 is mounted for rotation on a single trunnion. Secured to the frame member 88, and extending rearwardly therefrom, are upper and lower bracket members 89 and 90, FIG. 2, which are, in turn, secured to vertically extending and horizontally spaced angle bars 91 and 92, FIG. 3. Each angle bar has upper and lower supporting rods 93 and 94, FIG. 2, extending inwardly therefrom and secured to the casing of a reduction gear assembly 95. The reduction gear assembly is driven by a motor 96 and has a main driving shaft 97, FIGS. 2, 8 and 10, the forward end of which carries a transversely extending drive pin 98 and is received in a socket provided in the member 86 of the trunnion so that it will drive rotationally the brewing container 81, as seen in FIGS. 8 and 10.

The supporting rods 93 and 94 are received in slots formed in the side walls 24 and 25 of the main frame member 22 and held in place by upper and lower seats 99 and 100 formed in the side walls 24 and 25, FIG. 2. The entire brewing assembly can also be easily removed from the main frame member 22 for maintenance purposes or cleaning purposes in a manner similar to the handling of the dispenser 20.

A vertically extending cam shaft 101 is rotatably mounted in the upper and lower bracket members 89 and 90 and driven from the main drive shaft 97 through a cross-helical gear 102 mounted on the cam shaft andengaging with a cross-helical gear 103 mounted on the drive shaft, FIG. 8. The gears 102 and 103 are pro-t vided with equal number of teeth, whereby one revolution of the drive shaft 97 causes the cam shaft 101 to also go through one revolution.

The cam assembly 104 is secured to the upper end of the cam shaft 101 forcorotation therewith and includes upper and lower cams 105 and 106, respectively. The upper cam has extending upwardly therefrom and at diametrically opposite points driving pins 107 and 108 which are arranged to be slidably received in the slots 78 and 79 of the dispenser driven member 77 as seen in FIG. 8. It may be noted that the pin 107 is sized to be received in theslot 78, While the pin 108 is sized to be received in the slot 79, thereby precluding any chance of having the dispenser out of time with respect to the brewing assembly when mountingeither of these units on the mainframe member 22.

The lower cam 106 has a tooth-shaped cam lobe 109 which isarranged to engage at different times the brewing switch 110 and the stop cycle switch 111. Both of these switches are mounted on a horizontally extending mounting plate 112 which is secured to the casing of the reducing gear assembly 95 as seen particularly in FIG. 2. Thus, only the brew switch 110 and the stop cycle switch 111 are in the path of the lobe 109 of the lowercam 106.

vA Z-shaped bracket 113, FIG. 2, is mounted on the mounting plate 112 for mounting a flushing switch 114 at an elevation above the brewing switch and stop cycle switch so that it may be in the path of an elongated cam lobe 115 on the upper cam 105. Hence only the flush switch 114 may be actuated by the upper cam 105, while the brew switch 110 and stop cycle switch 111 are actuable by the lobe on cam 106. And for each revolution of the brewing container 81, the cam shaft 101 rotates one revolution and actu ates each of the switches one time.

Referring now particularly to FIGS. 1 and 10, a cyllndrically shaped fitting 116 is secured to a side wall 85 of the brewing container 81 diametrically opposite the member 86 of the trunnion. A sleeve member 117 is rotatably carried on the fitting 116 and provided with a pair of pipe connections 118 and 119. The pipe connection 118 serves as the inlet to the brewing container, whereby a brewing liquid such as hot water may pass therethrough' to an annular inlet groove 120 formed in the fitting 116. The groove 120 communicates with an axially extending passageway 121 terminating short of the inner end of the fitting 116 and closed at its outer end by means of a plug 122 and the passageway 121 communicates with a tubular pipe 123. The pipe 123 leads from the fitting 116 to a fitting 124 mounted in the bottom wall 84 of the brewing container 81. The fitting 124 has an internal threaded portion 125 which opens to the inside of the container.

The pipe or conduit connection 119 serves as an outlet for the brewing container 81 and aligns with an annular groove 126 formed in the fitting 116 and in communication with an axially extending passageway 127 which terminates short of the outer end of the fitting and opens into the interior of the brewing container 81. A plurality of conventional flexible rings 128, FIG. 10, seal the grooves 120 and 126 from one another and also prevent leakage between the relatively rotatable fitting 116 and sleeve 117.

The brewing basket 82 includes an impervious bottom wall 129, FIG. 10, a tapered foraminous side wall 130 and a rigidifying ring 131 at the upper open end thereof. The rigidifying ring 131 is sized to intimately engage the upper inner surface of the side wall 85 of the brewing container. The foraminous wall 130 of the brewing basket defines with the inner surface of the side wall 85 of the brewing container a collecting chamber 132 which communicates with the passageway 127 in the fitting 116 that leads to the brewed liquid outlet 119.

The bottom wall 129 of the brewing basket 82 is apertured to permit insertion therethrough of the externally threaded nipple end of the brew stem 83. A collar 134 on the nipple 133 and integral therewith serves to lock the brewing basket bottom to the nipple 124 and the brewing container 81 as seen in FIG. 10.

The brew stem 83 also includes a stem portion 135 extending from the nipple end 133 and into the center portion of the brewing basket and container. A transversely extending pin 136 is carried in the upper end of the stem portion 145, FIGS. and 13, for grasping to insert and screw the brew stem into place. Likewise, removal of the brew stem may be easily accomplished by grasping the pin or handle 136 and screwing the stem outwardly for removal. The stem portion 135 is hollow or formed with a pasageway 137, FIG. 10, but the pasageway does not extend entirely through the stem portion, but terminates ahead of the top end of the stem portion. A plurality of radially arranged apertures 138 are provided in the stem portion 135 just above the collar 134, and through which the brewing liquid is dispersed from the inlet 118, I

as seen in FIGS. 10 and 12. A movable sleeve 139 is freely carried on the stem portion 135 and sized to de fine an annular passageway 140 between the outer surface of the stem portion and the inner surface of the sleeve. In normal brewing position, the sleeve rests on the collar 134, whereby the brewing liquid dispersed from the apertures 138 is forced to flow through the passageway 140 between the sleeve and the stem portion and into the central area of the brewing basket and brewing container thereby evenly distributing the brewing liquid throughout the container.

During the flushing cycle when the brewing container is inverted, it is desirable to permit the flushing liquid to spray radially of the stem portion 135 and along the 8 bottom of the brewing basket to flush along the inner surface of the foraminous wall 130. Accordingly, when in inverted position, the sleeve 139 will move downwardly a short distance to permit the flushing liquid to be dispersed radially from the brew stem and not then guided by the sleeve 139. However, in order to eliminate caking and clogging of the coffee grounds at the lower end of the brew stern and around the apertures 138, the sleeve 139 is restrained from falling to the opposite end of the stem portion when in an inverted position by means of a retaining pin 141. Thus, the sleeve 139 is restrained from moving along the stem within predetermined limits. Because the coffee holding tank is at a higher level than the brewing container, a slight head of coffee is built up in the line between the brewing container and the tank which at the beginning of the flushing cycle flows back through the line and through the brewing container to flush out any coffee grounds that may be in and around the apertures of the brew stem. Since the sleeve on the brew stem cannot travel to the upper end of the brew stem during the flushing operation, it immediately falls into proper place for protecting the apertured end of the brew stem when the brewing container is in operation thereby precluding the possibility of the sleeve being stuck at the upper end of the stern during the brewing cycle which would lead possibly to clogging of the apertures and malfunction of the brewing assembly.

The open end of the brewing container is closed during the brewing cycle by a cover 142. The cover is provided with a resilient gasket member 143, of neoprene rubber or the like, which is urged into sealing relationship with the upper edge of the brewing container side wall 85 as seen in FIGS. 9 and 10. The cover 142 is supported by a pair of similarly shaped but oppositely disposed Z- shaped plates 144 and 145. These plates include intermediate fiat sections 146 and 147, respectively, which are suitably secured to the top side of the cover 142. Extending upwardly away from the sections 146 and 147 are parallel spaced members 148 and 149, respectively, which have aligned apertures to receive a roller shaft 150 having a cam roller 151 rotatably carried thereon between the members 148 and 149.

Extending downwardly alongside of the container when the cover is closed from the intermediate sections 146 and 147 are legs 152 and '153, respectively, which are respectively provided with slots 154 and 155. The slotted leg 152 is slidably received in a groove 156, FIG. 10,

formed in the fitting 116, while the slotted leg 153 is slidably received in a groove 157 formed in the member 86. Specifically, the slotted leg 153 is seen relative to the groove 157 in FIG. 7. The slots in the legs 152 and 153 extend from a point spaced downwardly from the intermediate sections 146 and 147 to the outer ends thereof. The outer end of the slot 154 is closed by a removable bar 158 having a stop 159 extending inwardly therefrom as seen in FIG. 10, while the outer end of the slot is closed by a removable bar 160.]:1aving a stop 161 extending inwardly therefrom as seen in FIGS. 7 and 10.

The cover is normally biased 'to the position seen in FIGS. 1, 2 and 7 when it is open. This biasing is accomplished by a spring 162, FIGS. 1, 2 and 9, which has one end attached to the pipe or conduit 123 and is trained around the fitting 116 with its other end secured to a lug 163 on the bar 158 of the supporting leg 152.

At the opposite sides of the brewing container 81 cover positioning plates 164 and 165 are mounted and respectively provided with stops 166 and 167 for limiting the movement of the cover in its open position. On the inner side of the container as seen in FIG; 7, a spring 168 has one end connected to a lug 169 on the bar of the inner leg 153 and its other end connected to a lug 170 on the cover positioning plate for further biasing the cover to its open position.

For closing the cover, a cam plate 171, FIGS. 1 and 9, is mounted on the frame plate 88 and forwardly thereof by means of supporting brackets 172 as seen in FIG. 3. The cover cam rotor 151 engages the cam plate 171 and the portion of the cam marked by the line 173, FIG. 9, illustrates the area which maintains the cover in closed position.

The present invention may be employed in vending machines or in a unit by itself but will generally be combined with a coffee holding tank 174, FIG. 14, which receives the brewed coifee through a line 175 connected to the outlet of the brewing container. The brewed liquid will be supplied to the brewing container through a solenoid operated controlling valve 176 and a line 177 to the inlet of the brewing container. A manually operable valve or faucet 178 may be used to dispense the coffee from the holding tank 174. It may be noted that the holding tank 174 is positioned at a level higher than the brewing assembly 21 as seen in FIG. 14.

The operation of the brewing apparatus is automatic, wherein the switches 110, 111 and 114 are electrically connected in a circuit with a motor 96 and a solenoid operated valve 176. A signal is delivered to the circuitry to initiate operation of a cycle, during which a predetermined amount of coffee is brewed and delivered to the holding tank 174. The signal may be manually imparted to the circuitry or automatically imparted thereto by means of a sensing device (not shown) in the holding tank which would sense a low level of coffee. Initially, the brewing container 81 resides in the position as seen in FIG. 1, wherein the longitudinal axis of the container is at a slight incline with the open end opening downwardly to permit drainage of any liquid that might remain in the container following the flushing cycle. It is noted that the cover 142 is in its open position. The cam lobe 109 on the lower cam 106 will also be engaged in position with the stop cycle switch 111 as seen in FIGS. 1 and 8.

Imparting of the signal to the circuitry of the apparatus operates to energize the motor 96 and rotate the brewing container 81 in a counterclockwise direction as viewed in FIG. 1. Simultaneously, the rotary disc 28 in the dispenser reservoir 27 will be rotated in a counterclockwise direction as viewed in FIG. 4. As the upper open end of the brewing container begins to align with the discharge end of the measuring device 26, the camming finger 74 on the dispenser shaft 57 will engage the cam lobe 75 on the gate 66 and initiate opening of the gate to permit the discharge of a measured amount of coliee grounds into the brewing basket 82 within the brewing container 81 on its trunnion will continue opening of the gate 66 until the entire charge of coffee within the measuring device 26 has been deposited within the brewing basket 82. During the time that the measured charge of coffee is being dispensed from the measuring device 26, the blank second section 63 on the rotary disc 28 will be traveling over the top of the measuring container 26 to prevent any additional coffee grounds from dropping into the measuring device.

As the cam roller 151 on the cover 142 engages the leading edge of the cam plate 171, continued rotation of the brewing container 81 will initiate closing of the cover 142. Initially, the cover will be pivoted about the aligned member 86 and the fitting 116 until the supporting legs 152 and 153 engage the stops 166a and 167a, respectively. Continued rotation of the container will then cause the cover to move. toward the open end of the container 81 until it is in sealed closed relation as seen in FIG. 9. When the cover is closed and the brewing container 81 has reached the position as seen in FIG. 9, the cam lobe 109 on the lower cam 106 will operate the brewing switch 110 thereby deenergizing the motor 96 and stopping the rotation of the container in the position as seen in FIG. 9 which may be defined as the brew position. It may be noted that this position is on a slight incline with the bottom end of the container extending downwardly which 10 serves to keep the coffee grounds from compacting in any one area within the brewing basket 82.

Operation of the brewing switch may also operate a timer and the solenoid control valve 176 to open this valve and permit the hot Water or brewing liquid to be introduced into the brewing container and within the brewing basket. This brewing liquid will pass through the apertures 138 in the brew stem 83 and through the annular passageway defined by the sleeve 139 and brew stem portion 135 and into the middle of the brewing basket, where the brewing liquid can then contact the brewing material or coffee grounds. The resultant produced brewed liquid or coffee is then separated from the cofiee grounds by the brewing basket 82 and discharged through the outlet 119 and to the coffee holding tank 174.

Termination of a predetermined timed period will cause the timer to operate in the circuitry and substantially simultaneously operate the solenoid controlled valve 176 to close the same and stop the flow of hot water to the brewing container and energize the motor 96 to again start rotation of the brewing container 81. It will be appreciated that the timer may be initially actuated at the time of initiating the automatic cycle instead of actuating the timer when the brew cycle switch has been operated. The cover 142 remains in closed position during the traverse of the brewing container along the remaining part of the cam plate 171 as indicated by the line 173 in FIG. 9. Substantially simultaneously with release of the cover so that it will return to its open position, the elongated cam lobe on the upper cam 105 will engage the flushing switch 114 and initiate the flushing cycle. During the flushing cycle, circuitry is operated to actuate the solenoid controlled valve 176 and permit the flow of flushing liquid through the brewing container. As above discussed, the sleeve 139 on the brew stem 83 will move to abutting position with respect to the retaining pin 141 and permit the flushing liquid to pass directly through the apertures 138 and radially of the bottom of the brewing container and wash down the walls of the brewing basket. The brewing container will continue rotation and the flushing cycle will be terminated when the trailing end of the cam lobe 115 leaves the switch 114. Shortly thereafter, the cam lobe 109 on the lower cam 106 will engage the stop cycle switch 111 and operate the circuitry to discontinue operation of the brewing apparatus. Thus, automatic operation of the brewing apparatus through each cycle of operation may be obtained. A diagrammatic illustration of the cycle of operation may be noted in FIG. 15

It will be understood that modification and variation may be effected without departing from the scope of the novel concepts of the present invention, but it is understood that this application is to be limited only by the scope of the appended claims.

The invention is hereby claimed as follows: 1. In a brewing apparatus, a device for dispensinga measured amount of granular material comprising a reservoir, a hopper above said reservoir feeding material thereto, an opening in the bottom of the reservoir, an open-ended tubular member extending downwardly from said reservoir and having its upper open end contiguous with said opening, a gate normally closing the lower open end of said member, said tubular member defining a measuring chamber, means operable to displace the gate normally closing the lower open end of said member, means in said reservoir for conveying the material to the measuring chamber and filling same, said conveying 1 1 tion being imperforate and covering said upper open end when said measuring chamber is being emptied.

2. In a brewing apparatus, a device for dispensing a measured amount of granular material comprising a cylindrical reservoir having a top, bottom and side walls, said top having an opening offset from the center of the reservoir adapted to receive the discharge end of a hopper, said bottom having an opening offset from the center of the reservoir on the opposite side of said center from first mentioned opening, an open-ended cylinder extending downwardly from said reservoir bottom and having its upper end contiguous with said opening therein, a gate normally covering the bottom end of said cylinder, said cylinder defining a measuring chamber, a vertical shaft rotatably carried by said reservoir and extending through said center, means on said shaft operable upon rotation thereof for displacing the gate from the lower end of said cylinder to discharge the contents therefrom, a substantially disc-shaped plate in said reservoir mounted on said shaft for rotation therewith, said plate having a first portion spaced from said reservoir bottom and having a plurality of holes therein, and a second portion spaced from said reservoir bottom a distance greater than said first portion and being imperforate, said second portion covering said opening when said gate is displaced from the lower end of said cylinder and said measuring chamber is being emptied.

3. In a brewing apparatus, a device for dispensing a measured amount of granular materialcomprising a reservoir, a hopper above said reservoir feeding material thereto, an opening in the bottom of the reservoir, an elongated tubular member open throughout its length and extending downwardly from said reservoir and having its upper open end contiguous with said opening, supporting means on the lower end portion of said tubular member, a gate pivotally mounted on said supporting means and pivotable between a position to close the lower end of said tubular member and a position to open said open lower end of said tubular member, said tubular member definiing a measuring chamber, means operatively connected to said gate for pivoting said gate between said two positions, and means wholly mounted in said reservoir and operatively connected to said last named means and rotatable thereby in timed relation to said pivoting of said gate for conveying said material in said reservoir and discharging the same through said open upper end into said tubular member when said gate is disposed in said first mentioned position and to close said open upper end when said gate is disposed in said second mentioned position.

4. A device for dispensing a measured amount of material comprising a material reservoir, a feed hopper for feeding material to said reservoir, an opening in the bottom of said reservoir, an open ended measuring chamher having one end in communication with said opening, a gate normally closing the other end of said chamber, means operable to displace the gate normally closing said other end of said chamber, means in said reservoir for conveying material to said chamber, said conveying means including a substantially disc shaped member rotatable in said reservoir, said disc shaped member having a first portion which contains at least one aperture therein, and a second portion extending vertically above said first portion, said second portion being substantially imperforate and covering said one end of said measuring chamber when said gate is displaced from closed position.

References Cited in the file of this patent UNITED STATES PATENTS 1,086,647 Cochran Feb. 10, 1914 1,617,922 Morrison Feb. 15, 1927 2,250,968 Riendeau July 29, 19.41 2,742,201 Hartley Apr. 17, 1956 

